• Physics of Surface, Interface and Cluster Catalysis
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Physics of Surface, Interface and Cluster Catalysis

£99.00
£99.00 £99.00
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Physics of Surface, Interface and Cluster Catalysis reviews the fundamental physics of catalysis from simple surface models through to complex cluster and catalytic structures.
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  • 08 March 2016
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Physics of Surface, Interface and Cluster Catalysis reviews the fundamental physics of catalysis from simple surface models through to complex cluster and catalytic structures.

It is the first book to provide a coherent collection of the physics of catalysis, and shows how physics has provided and continues to provide clarity and insight into many complex catalysis problems, reviewing both recent developments and prospects for future developments in the field.

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Price: £99.00
Pages: 168
Publisher: Institute of Physics Publishing
Imprint: Institute of Physics Publishing
Publication Date: 08 March 2016
Trim Size: 10.00 X 7.00 in
ISBN: 9780750311656
Format: Hardcover
BISACs:

SCIENCE / Physics / Condensed Matter, Condensed matter physics (liquid state and solid state physics), Catalysis
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M C S Escaño
extends gratitude to the Japan Society for Promotion of Science (JSPS)
Grant-in-aid for Young Scientist B, Grant Number 15K21028, the Japan Science
and Technology Agency (JST) Tenure Track Program for Innovative Research for
research funds and Kyoto University Supercomputer & High Performance
Computing Cluster Fukui (HPCCF) for computing facilities. M Stamatakis and M
T Darby gratefully acknowledge funding by the Engineering and Physical
Sciences Research Council UK as part of a Doctoral Training Grant. S Piccinin
acknowledges the Italian National Research Council (CNR) Short Term Mobility
Program for partial financial support. The authors acknowledge the use of the
UCL Legion High Performance Computing Facility (Legion@UCL), and associated
support services, in the completion of the computational part of this work. H
Nakanishi’s work is supported in part by: JST ACCEL Program ‘Creation of the
Functional Materials on the Basis of the Inter-Element-Fusion Strategy and
their Innovative Applications’; NEDO Project ‘R&D Towards Realizing an
Innovative Energy Saving Hydrogen Society based on Quantum Dynamics
Applications’; MEXT Grant-in-Aid for Scientific Research on Innovative Areas
Program ‘Material Design through Computics: A02-7: Investigation of new
physical properties and quantum dynamics using protons and muons’ and
‘Frontier of Materials, Life and Elementary Particles Science explored by
Ultra Slow Muon Microscope: A02 Spin transport and catalytic reactions in the
boundary regions’.

Preface 1. Reactivity of metals based on delocalized electron states 2. Physisorption on surfaces 3. Effect of physisorbed states on H2 nuclear spin conversion on metal surfaces 4. First-principles based kinetic monte-carlo simulation in catalysis 5. Quantum states of a hydrogen atom on solid surface and in solid subsurface 6. Quantum adsorption states of small mass atoms on solid surfaces Afterword